We've updated our Privacy Policy to make it clearer how we use your personal data. We use cookies to provide you with a better experience. You can read our Cookie Policy here.


Waters Introduces new Capabilities for Proteomic Research

Listen with
Register for free to listen to this article
Thank you. Listen to this article using the player above.

Want to listen to this article for FREE?

Complete the form below to unlock access to ALL audio articles.

Read time: 1 minute

Waters Corporation has announced a version of its ProteinLynx™ Global SERVER software, including enhancements to Waters® Protein Expression System, at the annual meeting of the Association of Biomolecular Resource Facilities (ABRF), February 11 - 14.

Waters® ProteinLynx Global SERVER™ (PLGS) 2.2.5 software features new tools which will allow researchers to identify and quantify proteins and biomarkers efficiently.

Waters claims that Waters Protein Expression System featuring PLGS was the first commercial product for practical quantitative proteomics without the use of isotope labelling technologies. 

PLGS 2.2.5 extends this technology with improved algorithms for efficient protein quantification and identification across large patient/sample sets or time-course studies.

A new quantification module in PLGS is designed to allow quantitative data to be generated at the protein or peptide level using any of the commercially available or user-defined labeling technologies such as SILACTM, AQUATM, ICAT®, iTRAQTM, etc.

The ability to perform both 'label free' and 'isotopic labeling' approaches now means that PLGS provides unparalleled flexibility to analyze proteomics samples of varying type and complexity.

PLGS 2.2.5 provides a 'step change' in the ability to identify proteins efficiently in complex samples by incorporating an algorithm which is designed to enable identification of proteins from MSE data (E - elevated collision energy) acquired from a Q-Tof type mass spectrometer.

In an LC/MS experiment a proprietary and patented 'parallel' peptide fragmentation protocol is employed to provide a 100% duty cycle on all detectable peptides in a protein digest.

This approach results in significantly higher sequence coverage and confidence in protein identification than traditional 'Data Dependent Acquisition' (DDA) MS/MS methods.

Other enhancements for PLGS 2.2.5 include new data visualization tools that visually depict what happens to the protein concentration over a large number of samples or conditions.

Finally, for researchers publishing their scientific findings in scientific journals, PLGS 2.2.5 will have access to a number of popular formats including peaklist, eXtensible Markup Language (XML), and the mzData Format as required by the Human Protein Organization (HUPO) Proteomics Standards Initiative for Mass Spectrometry.

These and other enhancements being introduced at ABRF 2006 will be discussed in Booth #311 and in several posters during the scientific session which will be available after the conference at the website.